We report a new method for the real-time quantitative analysis of sodium in human sweat, consolidating sweat collection and analysis in a single, integrated, wearable platform. This temporal data opens up new possibilities in the study of human physiology, broadly applicable from assessing high performance athletes to monitoring Cystic Fibrosis (CF) sufferers. Our compact Sodium Sensor Belt (SSB) consists of a sodium selective Ion Selective Electrode (ISE) integrated into a platform that can be interfaced with the human body during exercise. No skin cleaning regime or sweat storage technology is required as the sweat is continually wicked from the skin to a sensing surface and from there to a storage area via a fabric pump. Our resul...
Perspiration-based wearable biosensors facilitate continuous monitoring of individuals' health state...
This research provide a proof of principle to use a sweat sensor system for real-time monitoring of ...
In sport, exercise and healthcare settings, there is a need for continuous, non-invasive monitoring ...
We report a new method for the real-time quantitative analysis of sodium in human sweat, consolidat...
We report a new method for the real-time quantitative analysis of sodium in human sweat,consolidatin...
The measurement of sweat electrolytes has a\ud number of important applications including\ud mon...
The measurement of sweat electrolytes has a number of important applications including monitor...
Analysis of sweat offers a wealth of information related to hydration, nutrition, and athletic perfo...
We report on the preparation of disposable potentiometric sensor strips for monitoring sodium in swe...
Wearable chemical sensors have the potential to provide new methods of non-invasive physiological me...
Sweat analysis has the potential to become a new method in the wearable monitoring technology market...
Perspiration-based wearable biosensors facilitate continuous monitoring of individuals’ health state...
A platform for harvesting and analysing the sodium content of sweat in real time is presented. One i...
Wearable sensors have applications in multiple aspects of health monitoring. In particular, real-tim...
© 2020 The Author(s) The SwEatch platform, a wearable sensor for sampling and measuring the concentr...
Perspiration-based wearable biosensors facilitate continuous monitoring of individuals' health state...
This research provide a proof of principle to use a sweat sensor system for real-time monitoring of ...
In sport, exercise and healthcare settings, there is a need for continuous, non-invasive monitoring ...
We report a new method for the real-time quantitative analysis of sodium in human sweat, consolidat...
We report a new method for the real-time quantitative analysis of sodium in human sweat,consolidatin...
The measurement of sweat electrolytes has a\ud number of important applications including\ud mon...
The measurement of sweat electrolytes has a number of important applications including monitor...
Analysis of sweat offers a wealth of information related to hydration, nutrition, and athletic perfo...
We report on the preparation of disposable potentiometric sensor strips for monitoring sodium in swe...
Wearable chemical sensors have the potential to provide new methods of non-invasive physiological me...
Sweat analysis has the potential to become a new method in the wearable monitoring technology market...
Perspiration-based wearable biosensors facilitate continuous monitoring of individuals’ health state...
A platform for harvesting and analysing the sodium content of sweat in real time is presented. One i...
Wearable sensors have applications in multiple aspects of health monitoring. In particular, real-tim...
© 2020 The Author(s) The SwEatch platform, a wearable sensor for sampling and measuring the concentr...
Perspiration-based wearable biosensors facilitate continuous monitoring of individuals' health state...
This research provide a proof of principle to use a sweat sensor system for real-time monitoring of ...
In sport, exercise and healthcare settings, there is a need for continuous, non-invasive monitoring ...